KR100776170B1 - System and method for diagnosis of optical repeater quality - Google Patents

Abstract

A system and a method for diagnosing quality of an optical repeater are provided to select automatically optical repeaters such that when a particular base station has an error, the performance of multiple optical repeaters connected with the base station is measured to determine whether the optical repeaters have an error. An RF monitoring unit(200) measures a noise level of each BTS(Base Transceiver Subsystem) connected with a mobile communication network, converts it into the first RF waveform, compares the converted first RF waveform with a pre-set first quality reference value. When a fault BTS(130) is extracted, the RF monitoring unit(200) requests an RCS(Repeater Control System) unit(300) to operate multiple optical repeater remote units(170-1-170-n) connected with the extracted BTS(130). When the second RF waveform transmitted from the optical repeater remote units(170-1-170-n) is received via an optical line, an optical repeater doner(150) and the BTS(130). The RF monitoring unit(200) compares the received second RF waveform value with a pre-set second quality reference value to determines whether it has an error. Upon receiving the request for operating each of the multiple optical repeater remote units(170-1-170-n), the RCS unit(300) sequentially operates the respective optical repeater remote units(170-1-170-n) connected with the BTS(130) to allow them to transmit the second RF waveform.

Description

System and Method for Diagnosis of Optical Repeater Quality

1 is a view showing the connection relationship between the optical repeater quality diagnosis system and the communication network according to the present invention,

2 is a view showing in detail the configuration of the RF monitoring apparatus according to the present invention;

3 is a view showing an example of a first quality reference value according to the present invention;

4 is a view showing an example of a second quality reference value according to the present invention;

5 is a flowchart illustrating an example of the optical repeater quality diagnosis method according to the present invention.

<Description of the symbols for the main parts of the drawings>

110: MSC / BSC 130: BTS

150: optical repeater donor 170-1 ~ 170-n: optical repeater remote

200: RF monitoring device 210: quality measuring unit

230: quality failure determination unit 250: quality measurement request unit

270: quality measurement value receiver 290: database

The present invention relates to an optical repeater quality diagnosis system, and more particularly, to an optical repeater quality diagnosis system and method for automatically determining whether there is an error in a transmission / reception path between a base station and an optical repeater.

The mobile network operator measures the noise level at the base station receiver and converts it into an RF waveform in order to analyze and monitor the wireless environment quality so that the operator can determine whether the waveform is normal or not. It applies RCS (Repeater Control System) device to monitor the status.

Currently, if the signal measured by a specific base station does not meet the standard while the base station is monitored by the RF monitoring device, the operator dispatches to the field to check the base station, and checks the setting state of the base station aerial and the optical repeater transmitter / receiver. Manual checks should be done.

For example, if there are five optical repeaters connected to the base station and one of them is abnormal and affects the base station, the operator checks the gain setting of all five optical repeaters in the field and sets the optical repeater. There is a problem in that it is necessary to manually determine whether it meets the city standard.

The present invention has been made to solve the above-described problem, and when an abnormality occurs in a specific base station while measuring the state of the base station in real time, the optical repeater to be checked by measuring the performance of the plurality of optical repeaters connected to the base station There is a technical problem to provide an optical repeater quality diagnosis system and method for the purpose.

In addition, an object of the present invention is to automatically determine the presence or absence of a path abnormality from the optical repeater to the base station section as the performance of the optical relay is measured.

The present invention for achieving the above object is connected to an optical repeater including a plurality of optical repeater remotes connected to the optical repeater donor and the optical path through a mobile communication network, optical repeater quality diagnostic system for remotely monitoring the performance of the optical repeater As

Measures the noise level of each of the base stations connected to the mobile communication network and converts the noise level into a first RF waveform, compares it with a preset first quality reference value, extracts a faulty base station whose base station condition does not meet the reference value, and extracts a plurality of base stations connected to the extracted base station. The second RF waveform value is transmitted from each of the optical repeater remotes, and when the second RF waveform transmitted from the optical repeater remote is transmitted through the optical beam, the optical repeater donor and the base station, the transmitted second RF waveform value is set to the preset second quality. An RF monitoring device that determines whether there is an abnormality by comparing with a reference value; And a function of controlling an optical repeater remote, and when receiving an operation request of each of the plurality of optical repeater remotes connected to a specific base station from the RF monitoring apparatus, sequentially operating each of the plurality of optical repeater remotes connected to the corresponding base station. RCS device for transmitting a 2RF waveform; includes.

Another embodiment of the present invention is connected to an optical repeater including a plurality of optical repeater remotes connected to the optical repeater donor via a mobile communication network, and optical repeater quality diagnosis using an optical repeater quality diagnosis system for remotely monitoring the performance of the optical repeater. As a way,

The optical repeater quality diagnosis system measures noise level of each of the plurality of base stations connected to the mobile communication network, converts the noise level into a first RF waveform, and compares it with a preset first quality reference value to extract a faulty base station whose base station condition does not meet the reference value. Stage 1; A second step of sequentially requesting each of the plurality of optical repeater remotes connected to the base station extracted in the first step to transmit a second RF waveform value; And a third step of determining whether or not there is an abnormality by comparing a second RF waveform transmitted by the optical repeater remote with a light beam and transmitted through the optical repeater donor and the base station with a preset second quality reference value.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing a connection relationship between an optical repeater quality diagnosis system and a communication network according to the present invention.

The optical repeater quality diagnosis system is connected to the optical repeater including a plurality of optical repeater remotes 170-1 to 170-n connected to the optical repeater donor 150 in a light path via mobile communication networks 110 and 130, and the mobile communication network Measures the noise level of each of the plurality of base stations 130 connected to and converts the noise level into an RF waveform, compares it with a preset first quality reference value, extracts a faulty base station whose base station condition does not meet the reference value, and extracts a plurality of optical signals connected to the extracted base station. Requests to operate the Continuous Wave Generator (CW Generator) of each of the repeater remotes (170-1 to 170-n) so that the RF waveform value is transmitted, and the RF waveform from the continuous wave signal generator The RF monitoring device 20 determines whether there is an abnormality by comparing the transmitted RF waveform value with a preset second quality reference value when transmitted via the optical repeater donor 150 and the base station 130. 0).

In addition, the optical repeater quality diagnosis system is connected to the optical repeater through the mobile communication network (110, 130), and has a function to control the continuous wave signal generator provided in the optical repeater remote (170-1 ~ 170-n) When receiving the continuous wave signal generator operation request of each of the plurality of optical repeater remotes 170-1 to 170-n connected to a specific base station transmitted from the RF monitoring apparatus 200, the plurality of optical repeater remotes connected to the corresponding base station (170-1 to 170-n) RCS device 300 for operating each continuous wave signal generator sequentially to transmit an RF waveform.

The optical repeater remotes 170-1 to 170-n include a continuous wave signal generator, and when receiving an operation request from the RCS device 300, the continuous wave signal generator operates to transmit an RF waveform. Here, the RF waveform transmitted as the continuous wave signal generator operates is transmitted to the RF monitoring apparatus 200 via the optical repeater donor 150 and the base station 130 in a light beam connected to the optical repeater remote, and the RF monitoring. A certain amount of signal attenuation occurs in the course of the path before it is delivered to the device 200.

The RF monitoring apparatus 200 compares the RF waveform transmitted from the continuous wave signal generators of the optical repeater remotes 170-1 to 170-n along the path with a preset reference value (for example, the second quality reference value). Determine if there is an error in the RF setting or module of the optical repeater. Here, the predetermined reference value refers to a reference RF waveform value transmitted from the continuous wave signal generator to the RF monitoring apparatus 200 in consideration of signal attenuation when the path setting between the base station and the optical repeater is normally performed. .

FIG. 2 is a diagram illustrating the configuration of the RF monitoring apparatus according to the present invention in detail, and will be described with reference to FIG. 3 showing an example of the first quality reference value and FIG. 4 showing an example of the second quality reference value.

As illustrated, the RF monitoring apparatus 200 includes a quality measuring unit 210, a quality failure determining unit 230, a quality measuring requesting unit 250, a quality measuring value receiving unit 270, and a database 290. .

In more detail, the quality measuring unit 210 measures the noise level of each of the base stations 130 connected to the mobile communication network and converts the noise level into an RF waveform.

The quality failure determination unit 230 compares the RF waveform values of the plurality of base stations 130 converted by the quality measuring unit 210 with a preset first quality reference value, and extracts a failure base station whose base station state does not meet the reference value. RF transmitted from a continuous wave signal generator (not shown) of a plurality of optical repeater remotes 170-1 to 170-n and sequentially transmitted via an optical repeater donor 150 and a base station 130 The optical repeater remotes 170-1 to 170-n having an abnormality are extracted by comparing the waveform value with the second preset quality reference value.

For example, the quality failure determination unit 230 measures RF waveforms of a plurality of base stations (base station A, base station B, and N-th base station of FIG. 3), lists them as shown in the list form of FIG. The base station in which an RF waveform value that falls short of the reference value is measured as compared with one quality reference value (below -90 dBm in FIG. 3) is determined as a faulty base station (B base station in FIG. 3).

In addition, the quality failure determination unit 230 is a second reference value (-65 dBm ± 3 in Figure 4) of the RF waveform value transmitted and received from the continuous wave signal generator of the optical repeater remote (170-1 ~ 170-n) ), It is determined that the corresponding optical repeater in which the RF waveform value different from the reference value is measured is impaired.

When the quality measurement request unit 250 receives the failure base station information by the quality failure determination unit 230, the quality measurement request unit 250 transmits the information of the failed base station to the RCS device 300 to transmit a plurality of optical repeater remotes connected to the base station 130 ( 170-1 to 170-n) request that the continuous wave signal generator be operated sequentially.

When the quality measurement value receiving unit 270 receives the RF waveform value transmitted from the continuous wave signal generators of the optical repeater remotes 170-1 to 170-n under the control of the RCS device 300, the quality measurement value determining unit 270 230) to determine the abnormality of the remote repeater.

The database 290 stores information related to the RF monitoring apparatus 200 including the first quality reference value and the second quality reference value.

5 is a flowchart illustrating an example of an optical repeater quality diagnosis method according to the present invention, which will be described with reference to FIG. 3 showing an example of a first quality reference value and FIG. 4 showing an example of a second quality reference value. Shall be.

First, the RF monitoring apparatus 200 measures a noise level of each of the plurality of base stations 130 connected to the mobile communication network and converts the noise level into an RF waveform (S101), and sets the preset first quality reference value (-90 dBm or less in FIG. 3). Comparing with the extracted base station, the base station state does not reach the reference value (S103).

Subsequently, the RF monitoring apparatus 200 operates the CW generator 300 to operate the CW generator of each of the plurality of optical repeater remotes 170-1 to 170-n connected to the base station extracted in step S103. The RF waveform value is transmitted by request (S105).

Subsequently, when the RCS apparatus 300 receives the continuous wave signal generator operation request of each of the plurality of optical repeater remotes 170-1 to 170-n connected to a specific base station transmitted from the RF monitoring apparatus 200, The continuous wave signal generator is operated with each of the connected optical repeater remotes 170-1 to 170-n to sequentially generate a signal for transmitting an RF waveform (S107).

The RCS device 300 has a function of controlling a continuous wave signal generator provided in the optical repeater remotes 170-1 to 170-n.

The RF monitoring apparatus 200 transmits the RF waveform transmitted from the continuous wave signal generators of the optical repeater remotes 170-1 to 170-n through the optical repeater donor 150 and the base station 130 in a light ray ( S109) and comparing the transmitted RF waveform value with a preset second quality reference value (-65 dBm ± 3 of FIG. 4) to determine whether there is an abnormality (S111).

In step S111, if the RF waveform value transmitted from the continuous wave signal generator is different from the second quality reference value, the RF monitoring apparatus 200 determines that the corresponding optical repeater remote is faulty.

Subsequently, although not shown, the RF monitoring apparatus 200 transmits the optical repeater remote information in which an abnormality occurs to an operator terminal to check whether the optical repeater remote and the base station have an RF setting abnormality or the optical repeater remote abnormality. do.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, in the optical repeater quality diagnosis system and method of the present invention, when an abnormality occurs in a specific base station while the state of the base station is measured in real time, the performance of a plurality of optical repeaters connected to the corresponding base station is measured to determine whether there is an error. The advantage is that the optical repeater to be checked can be automatically selected.

In addition, the present invention has the advantage that it can automatically determine the presence or absence of path abnormality from the optical repeater to the base station section according to the performance of the optical repeater.

Claims (6)

An optical repeater quality diagnosis system connected to an optical repeater including a plurality of optical repeater remotes connected by an optical repeater donor and a light beam through a mobile communication network, for remotely monitoring the performance of the optical repeater, Measuring a noise level of each of the plurality of base stations connected to the mobile communication network and converting the noise level into a first RF waveform, and comparing the result with a preset first quality reference value to extract a faulty base station whose base station condition does not meet the reference value, When an operation request of each of the connected optical repeater remotes is made and a second RF waveform transmitted from the optical repeater remote is transmitted through the optical beam, the optical repeater donor, and the base station, the transmitted second RF waveform value is set to the preset second quality reference value. RF monitoring device to determine whether there is an abnormality in comparison with; And And a function of controlling an optical repeater remote, and upon receiving an operation request of each of the plurality of optical repeater remotes connected to a specific base station from the RF monitoring apparatus, sequentially operating each of the plurality of optical repeater remotes connected to the corresponding base station to perform a second RF. An RCS device for transmitting a waveform; Optical repeater quality diagnostic system comprising a. The method of claim 1, The RF monitoring device, A database storing information related to the RF monitoring apparatus; A quality measuring unit for measuring a noise level of each of the plurality of base stations connected to the mobile communication network and converting the noise level into a first RF waveform; By comparing the first RF waveform value converted by the quality measuring unit with a preset first quality reference value, the base station state is extracted from the failure base station, and transmitted from a plurality of optical repeater remote, the optical path, the optical repeater donor and base station A quality failure determination unit configured to extract an optical repeater remote in which an abnormality occurs by comparing the second RF waveform value transmitted through the second with a preset second quality reference value; A quality measurement request unit which, upon receiving the failure base station information by the quality failure determination unit, transmits information of the failed base station to the RCS device to sequentially operate the plurality of optical repeater remotes connected to the base station; And Receiving a second RF waveform value transmitted from an optical repeater remote under the control of the RCS device, transmitting the second RF waveform value to the quality failure determining unit to determine whether there is an abnormality of the corresponding optical repeater remote; Optical repeater quality diagnostic system comprising a. The method according to claim 1 or 2, Each of the plurality of optical repeater remotes is equipped with a continuous wave signal generator (CW Generator), And the second RF waveform is transmitted as the continuous wave signal generator operates. An optical repeater quality diagnosis method using an optical repeater quality diagnosis system connected to an optical repeater including a plurality of optical repeater remotes connected by an optical repeater donor and a light beam through a mobile communication network to remotely monitor the performance of the optical repeater, The optical repeater quality diagnosis system measures noise level of each of the plurality of base stations connected to the mobile communication network, converts the noise level into a first RF waveform, and compares it with a preset first quality reference value to extract a faulty base station whose base station condition does not meet the reference value. Stage 1; Requesting the RCS device to sequentially operate each of the plurality of optical repeater remotes connected to the base station extracted in the first step so that the second RF waveform value is transmitted to the RF monitoring device; And A third step of determining whether there is an abnormality by comparing a second RF waveform transmitted by the optical repeater remote with an optical beam, and transmitted to the RF monitoring apparatus via the optical repeater donor and the base station with a preset second quality reference value; Optical repeater quality diagnostic method comprising a. The method of claim 4, wherein After the third step, As a result of the third step, transmitting the optical repeater remote information having an abnormality to the operator terminal; Optical repeater quality diagnostic method characterized in that it further comprises. The method according to claim 4 or 5, Each of the plurality of optical repeater remotes is equipped with a continuous wave signal generator (CW Generator), And the second RF waveform is transmitted as the continuous wave signal generator operates.

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